Locomotor activity in spinal man: significance of afferent input from joint and load receptors

doi:10.1093/brain/awf273

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Brain, Vol. 125, No. 12, 2626-2634, December 2002
© 2002 Oxford University Press

Locomotor activity in spinal man: significance of afferent input from joint and load receptors

Volker Dietz, Roland Müller and Gery Colombo

Paraplegic Centre of the University Hospital Balgrist, Zurich, Switzerland

Correspondence to: V. Dietz, ParaCare, Paraplegic Centre, University Hospital Balgrist, Forchstr. 340, 8008 Zurich, Switzerland E-mail: dietz{at}balgrist.unizh.ch

The aim of this study was to differentiate the effects of bodyload and joint movements on the leg muscle activation patternduring assisted locomotion in spinal man. Stepping movementswere induced by a driven gait orthosis (DGO) on a treadmillin patients with complete para-/tetraplegia and, for comparison,in healthy subjects. All subjects were unloaded by 70% of theirbody weight. EMG of upper and lower leg muscles and joint movementsof the DGO of both legs were recorded. In the patients, normalstepping movements and those mainly restricted to the hips (blockedknees) were associated with a pattern of leg muscle EMG activitythat corresponded to that of the healthy subjects, but the amplitudewas smaller. Locomotor movements restricted to imposed anklejoint movements were followed by no, or only focal EMG responsesin the stretched muscles. Unilateral locomotion in the patientswas associated with a normal pattern of leg muscle EMG activityrestricted to the moving side, while in the healthy subjectsa bilateral activation occurred. This indicates that interlimbcoordination depends on a supraspinal input. During locomotionwith 100% body unloading in healthy subjects and patients, noEMG activity was present. Thus, it can be concluded that afferentinput from hip joints, in combination with that from load receptors,plays a crucial role in the generation of locomotor activityin the isolated human spinal cord. This is in line with observationsfrom infant stepping experiments and experiments in cats. Afferentfeedback from knee and ankle joints may be involved largelyin the control of focal movements.

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				A. L Behrman, M. G Bowden, and P. M Nair Neuroplasticity After Spinal Cord Injury and Training: An Emerging Paradigm Shift in Rehabilitation and Walking Recovery Physical Therapy, October 1, 2006; 86(10): 1406 - 1425. [Abstract] [Full Text] [PDF]

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				T. Lam, M. Anderschitz, and V. Dietz Contribution of Feedback and Feedforward Strategies to Locomotor Adaptations J Neurophysiol, February 1, 2006; 95(2): 766 - 773. [Abstract] [Full Text] [PDF]

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				R. Grasso, Y. P. Ivanenko, M. Zago, M. Molinari, G. Scivoletto, V. Castellano, V. Macellari, and F. Lacquaniti Distributed plasticity of locomotor pattern generators in spinal cord injured patients Brain, May 1, 2004; 127(5): 1019 - 1034. [Abstract] [Full Text] [PDF]

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